Issue 36, 2019

The construction of porous chitosan microspheres with high specific surface area by using agarose as the pore-forming agent and further functionalized application in bioseparation

Abstract

Adsorbents with synchronously high protein adsorption performance and a facile synthetic route are highly desired in protein separation. In this study, a facile yet effective strategy to develop porous chitosan microspheres (PCMs) with high specific surface area (SSA) using agarose as the pore-forming agent is reported. Through heat treatment, the agarose chains in the chitosan/agarose composite microspheres (CAM) were removed, leading to the generation of nanopores/nanochannels and the improvement of SSA. The obtained PCMs showed hierarchical porous structure and a maximum SSA of 246.48 m2 g−1. For the application of PCMs as a protein adsorbent, by modification, the resultant immobilized Cu2+ affinity adsorbent (denoted as Cu2+PCM-15) exhibited a high adsorption capacity (301.88 mg g−1), fast adsorption rate (reaching equilibrium in less than 15 min), and excellent adsorption selectivity for BHb. Together with its environmental-friendliness, and abundant biomass chitosan and agarose, the as-prepared affinity adsorbent with high performance has great application potential in the field of bioseparation.

Graphical abstract: The construction of porous chitosan microspheres with high specific surface area by using agarose as the pore-forming agent and further functionalized application in bioseparation

Supplementary files

Article information

Article type
Paper
Submitted
10 Jun 2019
Accepted
06 Aug 2019
First published
06 Aug 2019

J. Mater. Chem. B, 2019,7, 5510-5519

The construction of porous chitosan microspheres with high specific surface area by using agarose as the pore-forming agent and further functionalized application in bioseparation

L. Qiao, L. Zhao, C. Liang and K. Du, J. Mater. Chem. B, 2019, 7, 5510 DOI: 10.1039/C9TB01157A

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